Brown - Goldstein Laboratory, Brown and Goldstein Laboratory

The Department of Molecular Genetics at the University of Texas Southwestern Medical Center. The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  Copyright 2004. The University of Texas Southwestern Medical Center at Dallas 5323 Harry Hines Boulevard, Dallas, Texas 75390MOLECULARThe Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  Scientists in the Department of Molecular Genetics study isolated genes and proteins; cultured cells; organs of living animals; and humans with genetic defects.  Our ultimate goal is the understanding of diseases such as atherosclerosis, diabetes, liver failure, and Alzheimerís disease.  The Department is united by weekly research conferences, sharing of equipment and ideas, and a mutual commitment to the concept that unbridled science is our best hope, and our unique contribution, to the conquest of disease. The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  Scientists in the Department of Molecular Genetics study isolated genes and proteins; cultured cells; organs of living animals; and humans with genetic defects.  Our ultimate goal is the understanding of diseases such as atherosclerosis, diabetes, liver failure, and Alzheimerís disease.  The Department is united by weekly research conferences, sharing of equipment and ideas, and a mutual commitment to the concept that unbridled science is our best hope, and our unique contribution, to the conquest of disease. The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  Scientists in the Department of Molecular Genetics study isolated genes and proteins; cultured cells; organs of living animals; and humans with genetic defects.  Our ultimate goal is the understanding of diseases such as atherosclerosis, diabetes, liver failure, and Alzheimerís disease.  The Department is united by weekly research conferences, sharing of equipment and ideas, and a mutual commitment to the concept that unbridled science is our best hope, and our unique contribution, to the conquest of disease. The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  Scientists in the Department of Molecular Genetics study isolated genes and proteins; cultured cells; organs of living animals; and humans with genetic defects.  Our ultimate goal is the understanding of diseases such as atherosclerosis, diabetes, liver failure, and Alzheimerís disease.  The Department is united by weekly research conferences, sharing of equipment and ideas, and a mutual commitment to the concept that unbridled science is our best hope, and our unique contribution, to the conquest of disease. The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  Scientists in the Department of Molecular Genetics study isolated genes and proteins; cultured cells; organs of living animals; and humans with genetic defects.  Our ultimate goal is the understanding of diseases such as atherosclerosis, diabetes, liver failure, and Alzheimerís disease.  The Department is united by weekly research conferences, sharing of equipment and ideas, and a mutual commitment to the concept that unbridled science is our best hope, and our unique contribution, to the conquest of disease. The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  Scientists in the Department of Molecular Genetics study isolated genes and proteins; cultured cells; organs of living animals; and humans with genetic defects.  Our ultimate goal is the understanding of diseases such as atherosclerosis, diabetes, liver failure, and Alzheimerís disease.  The Department is united by weekly research conferences, sharing of equipment and ideas, and a mutual commitment to the concept that unbridled science is our best hope, and our unique contribution, to the conquest of disease. The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  Scientists in the Department of Molecular Genetics study isolated genes and proteins; cultured cells; organs of living animals; and humans with genetic defects.  Our ultimate goal is the understanding of diseases such as atherosclerosis, diabetes, liver failure, and Alzheimerís disease.  The Department is united by weekly research conferences, sharing of equipment and ideas, and a mutual commitment to the concept that unbridled science is our best hope, and our unique contribution, to the conquest of disease. The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  Scientists in the Department of Molecular Genetics study isolated genes and proteins; cultured cells; organs of living animals; and humans with genetic defects.  Our ultimate goal is the understanding of diseases such as atherosclerosis, diabetes, liver failure, and Alzheimerís disease.  The Department is united by weekly research conferences, sharing of equipment and ideas, and a mutual commitment to the concept that unbridled science is our best hope, and our unique contribution, to the conquest of disease. The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  Scientists in the Department of Molecular Genetics study isolated genes and proteins; cultured cells; organs of living animals; and humans with genetic defects.  Our ultimate goal is the understanding of diseases such as atherosclerosis, diabetes, liver failure, and Alzheimerís disease.  The Department is united by weekly research conferences, sharing of equipment and ideas, and a mutual commitment to the concept that unbridled science is our best hope, and our unique contribution, to the conquest of disease. The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  Scientists in the Department of Molecular Genetics study isolated genes and proteins; cultured cells; organs of living animals; and humans with genetic defects.  Our ultimate goal is the understanding of diseases such as atherosclerosis, diabetes, liver failure, and Alzheimerís disease.  The Department is united by weekly research conferences, sharing of equipment and ideas, and a mutual commitment to the concept that unbridled science is our best hope, and our unique contribution, to the conquest of disease. The Department of Molecular Genetics applies powerful tools of molecularbiology to problems of clinical medicine with heavy emphasis on genetic and meta-bolic disorders.  Of our 11 faculty, seven have M.D. degrees and four have Ph.D. degrees.  Topics of investigation include: regulation of lipid synthesis and membrane composition; production of steroid hormones and bile acids; development and degeneration of the brain; and genes that control appetite and sleep.  Scientists in the Department of Molecular Genetics study isolated genes and proteins; cultured cells; organs of living animals; and humans with genetic defects.  Our ultimate goal is the understanding of diseases such as atherosclerosis, diabetes, liver failure, and Alzheimerís disease.  The Department is united by weekly research conferences, sharing of equipment and ideas, and a mutual commitment to the concept that unbridled science is our best hope, and our unique contribution, to the conquest of disease.Brown - Goldstein Laboratory, Brown and Goldstein LaboratoryBrown - Goldstein Laboratory, Brown and Goldstein LaboratoryBrown - Goldstein Laboratory, Brown and Goldstein Laboratory